CN216234600U - Dish arranging machine used in moon cake production - Google Patents

Abstract

The utility model relates to the technical field of moon cake production, and discloses a dish arrangement machine used in moon cake production, which comprises a vertically arranged support, a lifting plate arranged on the support in a sliding manner and used for buckling and placing a plurality of trays, a lifting mechanism used for vertically lifting the lifting plate, and an output mechanism used for transferring the trays placed on the lifting plate one by one. The utility model is provided with the lifting plate which can buckle a plurality of trays, the lifting mechanism and the output mechanism, the plurality of trays can be buckled on the lifting plate at one time, and then the output mechanism can transfer the trays one by one without replenishing the trays one by one, thereby saving manpower and having very simple and convenient operation.

Description

Dish arranging machine used in moon cake production

Technical Field

The utility model relates to the technical field of moon cake production, in particular to a dish arrangement machine used in moon cake production.

Background

In food enterprises producing moon cakes, a plate arranging machine is generally used for regularly arranging dough for producing moon cakes on baking pans in sequence without manual placement, and then the dough is transferred to an oven for baking. The plate arranging machine in the prior art usually comprises a mechanism for conveying dough and a mechanism for conveying a baking pan, the mechanism for conveying the dough is generally a conveyor belt which can displace per se, the dough is sequentially conveyed to the end part on the conveyor belt and falls to a certain position in the baking pan below, meanwhile, the dough falls to another position in the baking pan after the displacement of the dough per se, after a row of dough is filled in the baking pan, the mechanism for conveying the baking pan drives the baking pan to displace to a certain extent, then the mechanism for conveying the dough repeats the above process, and thus the dough is regularly placed in the baking pan.

And the mechanism of carrying the baking pan at present includes a plurality of pairs of plates and horizontal transport structures of placing that can take place the displacement downwards that set up relatively at interval, during the use, need insert the baking pan one by one to every pair of placing the plate on, later the baking pan is along with placing the downward displacement of dish, later carry to the mechanism below of carrying the dough by horizontal transport mechanism, and this process is supplemented one by one along with the consumption of baking pan at any time, and the operation is comparatively troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a dish arranging machine used in moon cake production, and aims to solve the problem of troublesome operation.

The technical purpose of the utility model is realized by the following technical scheme:

the utility model provides a arrange dish machine that uses in moon cake production, including the support of vertical setting, slide set up in be used for detaining on the support and put the lifter plate of a plurality of trays, still including be used for carrying out the elevating system of vertical lift, will place one by one to the lifter plate on the output mechanism that the tray was transported.

Through foretell technical scheme, before the use, can once only detain a plurality of trays and put on the lifter plate, later open, elevating system promotes tray position one by one, and output mechanism exports the tray one by one, to the mechanism department of carrying the dough, and the mechanism of carrying the dough places regularly in the baking pan one by one in with the baking pan. Wherein, set up lifter plate, elevating system and the output mechanism that can detain a plurality of trays, can once only detain a plurality of trays and put on the lifter plate, later output mechanism can transport the tray one by one, need not to supply the tray one by one, uses manpower sparingly, and operates very portably.

It should be understood that the mechanism for conveying the dough is well known in the art and will not be described in any greater detail herein.

The utility model is further provided with: the bottom of support is provided with the bottom plate, the top of support is provided with the roof, elevating system including rotate set up in the bottom plate with utensil screwed dwang between the roof the dwang pass and with the body that goes up and down that the dwang screw thread links to each other and set up in be used for the drive on the roof dwang pivoted elevator motor, the lateral part of lifter plate with the body that goes up and down links to each other, the lateral part of the body that goes up and down is provided with the piece of holding tightly of transversal L shape of personally submitting relatively, it keeps away from to embrace the piece one side of the body that goes up and down with the lateral part of support contacts, two all inlay on embracing the piece and be equipped with rotatable gyro wheel, two the wheel face of gyro wheel can with the relative both sides of support contact.

Through foretell technical scheme, open elevator motor, the dwang rotates, because the restriction of the piece of hugging closely that links to each other with the body that goes up and down to the body position on the horizontal direction that goes up and down, then the body that goes up and down carries out vertical lift along the dwang, and the lifter plate that links to each other with the body lateral part that goes up and down then carries out vertical lift, and the gyro wheel can reduce the frictional force of embracing between piece and the support. The lifting mechanism is provided with the rotating rod, the lifting body and the lifting motor, the lifting plate can be vertically lifted relatively by opening or closing the lifting motor, and the function that the position of the tray rises one by one along with the transfer of the output mechanism is realized by controlling the time of each rotation of the lifting motor (which can be a stepping motor) and the stay time between each rotation.

The utility model is further provided with: the output mechanism comprises a slide rail, a plurality of sliders connected with the slide rail in a sliding manner, a rotatable conveying belt and a drive mechanism, the sliders are driven to slide along the slide rail, the slide rail comprises a first rail and a second rail which are obliquely arranged and a third rail which is horizontally arranged, two ends of the third rail are connected with the top of the first rail and the top of the second rail, the longitudinal section of the first rail and the longitudinal section of the second rail are splayed, the distance between the third rail and a tray positioned on the uppermost layer is greater than the width of the tray, the distance between the bottom of the second rail and the conveying belt is less than the width of the tray, the projection of one end of the third rail in the vertical direction is positioned within the lifting plate, the projection of the other end in the vertical direction is positioned in the conveying belt, the bottom of the sliders is hinged and provided with a hooking piece, one side of the tray, which is close to the bottom of the first rail, is relatively provided with two connecting rods, the tray locking device is characterized in that two elastic pieces which are tightly abutted against each other are arranged on the opposite inner sides of the connecting rods, when the tray is buckled, the longitudinal sections of the two elastic pieces are in a downward bent folded line shape, a blocking rod is horizontally arranged below the third rail and is perpendicular to the length direction of the third rail, the blocking rod is located above one end, close to the lifting plate, of the conveying belt, and a suction magnet is arranged inside the conveying belt.

Through the technical scheme, when the driving structure is opened, the driving structure drives the sliding part to slide along the sliding rail, so as to drive the hooking part to slide along the sliding rail, the hooking part moves to the bottom end of the first rail, the position of the hooking part is positioned below the two elastic sheets, the hooking part tilts upwards along the first rail along with the sliding part, because the direction of the force borne by the elastic sheets when the hooking part hooks the two elastic sheets is not in the same direction as the opening direction of the elastic sheets, the hooking part (the shape of which allows the elastic pieces to turn over) can hook the two elastic sheets to hook the tray, then the sliding part slides to the third rail, the tray is in a vertically suspended state at the moment, the sliding part continues to move downwards along the second rail until one end of the bottom of the tray is contacted with the blocking rod, then continues to move downwards along with one end of the top of the tray, and one end of the bottom of the tray falls to the conveying belt below, at the moment that one end of the bottom of the tray touches the conveying belt, the two elastic pieces are impacted, meanwhile, the tray is under the action of the suction force of the suction magnet, under the action of the impact force and the suction force, the two elastic pieces are bounced open, one end of the top of the tray also falls to the conveying belt (the buckled tray rotates 180 degrees and becomes upright), and then the conveying belt can smoothly convey the tray to the position below a mechanism for conveying dough to complete tray arrangement because the friction force between the conveying belt and the tray is greater than the suction force of the suction magnet to the tray; repeating the above process can make a plurality of trays placed on the lifting plate. Wherein, output mechanism has set up slide rail (including first rail, second rail and third rail), slider, conveyer belt and drive structure, still including colluding piece, flexure strip, blockking piece and suction magnet, has realized that output mechanism will detain the function of automatic transfer to the conveyer belt on of a plurality of trays of putting on the lifter plate one by one, and structural design is ingenious.

The utility model is further provided with: the utility model discloses a conveying belt, including first rail, second rail, third rail, spout, first rail with the second rail and the upper and lower both sides of third rail have all been seted up the spout, the spout with first rail or the second rail or the shape on the length direction looks vertically cross-section of third rail is the T font or falls the T font, still including set up in two first conveying rollers of first rail and second rail bottom, around locating two the conveyer belt of first conveying roller, the conveyer belt is located in the spout, the slider be with the pole that conveyer belt face interval links to each other, the both ends of slider with the spout contacts, collude the piece with the slider is articulated mutually, drive structure is used for the drive the conveyer belt rotates.

Through foretell technical scheme, open drive structure, then first drive belt rotates, then the slider that links to each other with first drive belt area then rotates along the spout to the drive colludes a rotation with slider articulated mutually. Wherein, seted up the spout and set up first drive belt, slider, made the slider can slide along the spout under the drive of first drive belt to the drive colludes the piece and slides along the spout, and the structure is firm.

The utility model is further provided with: the sliding piece comprises an inner core and a rotating part which is rotatably connected with the two ends of the inner core, and the end part and the side part of the rotating part are in contact with the sliding groove.

Through foretell technical scheme, the rotation of the rotating part that contacts with the spout can reduce the frictional force between slider and the spout to reduce its wearing and tearing that cause the spout, make this structure durability higher.

The utility model is further provided with: the driving structure comprises a driving motor, a first driving disc, a second driving disc, a first driving belt, a driving gear, a driven gear and a driving rod, wherein the first driving disc is arranged on an output shaft of the driving motor, the driving gear is coaxially connected with the second driving disc, the first driving belt is arranged around the first driving disc and the second driving disc, the driving rod is coaxially connected with a first conveying roller, the driven gear is arranged on the driving rod, and the driven gear is meshed with the driving gear.

Through foretell technical scheme, open driving motor, then drive first drive disk and rotate, drive first driving pulley and rotate, drive the second drive disk again and rotate, then the driving gear rotates, drives driven gear and rotates, drives the actuating lever again and rotates, then drives a first conveying roller and rotates, later drives the conveyer belt and rotates and drive the slider rotation, drives at last and colludes a rotation, and the messenger colludes the piece and can collude the tray one by one.

The utility model is further provided with: the conveying belt is wound on the two second conveying rollers, a fourth driving disc is coaxially arranged at the end part of the second conveying roller, and the second driving belt is wound on the third driving disc and the fourth driving disc.

Through foretell technical scheme, open driving motor, then drive third driving plate and rotate, drive the second drive belt and rotate, drive the fourth driving plate again and rotate, drive the second conveying roller at last and rotate to drive the conveyer belt and rotate, realized the function of conveyer belt transport tray, only set up a driving motor simultaneously, can drive first driving belt and conveyer belt simultaneously and rotate the energy can be saved.

The utility model is further provided with: the bottom plate is provided with a shielding plate, the shielding plate and the lifting plate have a set distance, a through groove is formed in the top of the shielding plate, and the two elastic pieces arranged on the tray on the uppermost layer are opposite to the through groove.

Through foretell technical scheme, the shielding plate guarantees that only to rise to the tray of a take-up and can be colluded by the piece of colluding, and the tray of below can't be colluded by the piece of colluding owing to sheltering from of shielding plate.

The utility model is further provided with: and the joint of the first rail and the third rail and the joint of the second rail and the third rail are both in arc transition.

The utility model is further provided with: the first rail and the third rail and the second rail and the third rail which are connected in a circular arc transition mode can ensure that the sliding piece can move stably between the rails.

Compared with the prior art, the utility model has the beneficial effects that:

the lifting plate capable of buckling the plurality of trays, the lifting mechanism and the output mechanism are arranged, the plurality of trays can be buckled on the lifting plate at one time, the output mechanism can transport the trays one by one, the trays are not required to be supplemented one by one, labor is saved, and operation is very simple and convenient.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is a third schematic structural view of the present invention;

FIG. 5 is a first cross-sectional view of the present invention;

FIG. 6 is an enlarged view at B in FIG. 5;

FIG. 7 is an enlarged view at C in FIG. 6;

FIG. 8 is a second cross-sectional view of the present invention;

fig. 9 is an enlarged view at D in fig. 8.

In the figure, 1, a bracket; 2. a lifting plate; 3. a lifting mechanism; 3a, rotating the rod; 3b, a lifting body; 3c, a lifting motor; 4. an output mechanism; 4a, a slide rail; 4a1, first rail; 4a2, second rail; 4a3, third rail; 4b, a slider; 4b1, inner core; 4b2, a rotating part; 4c, a conveyer belt; 4d, a driving structure; 4d1, drive motor; 4d2, a first drive disk; 4d3, second drive plate; 4d4, first drive belt; 4d5, drive gear; 4d6, driven gear; 4d7, drive lever; 5. a base plate; 6. a top plate; 7. a clasping piece; 8. a roller; 9. a hooking member; 10. a connecting rod; 11. an elastic sheet; 12. a blocking lever; 13. a suction magnet; 14. a chute; 15. a first conveying roller; 16. a conveyor belt; 17. a third drive disk; 18. a second conveying roller; 19. a fourth drive disk; 20. a second belt; 21. a shielding plate; 22. through the slot.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings and specific embodiments. It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

The utility model provides a dish arrangement machine used in moon cake production, which comprises a vertically arranged support 1, a lifting plate 2 arranged on the support 1 in a sliding manner and used for buckling and placing a plurality of trays, a lifting mechanism 3 used for vertically lifting the lifting plate 2, and an output mechanism 4 used for transferring the trays placed on the lifting plate 2 one by one.

The use process comprises the following steps: before using, can once only detain a plurality of trays and put on lifter plate 2, later open, elevating system 3 promotes the tray position one by one, and output mechanism 4 exports the tray one by one to the mechanism department of carrying the dough, and the mechanism of carrying the dough places regularly in the baking pan one by one with the baking pan. Wherein, set up lifter plate 2, elevating system 3 and the output mechanism 4 that can detain a plurality of trays, can once only detain a plurality of trays and put on lifter plate 2, later output mechanism 4 can transport the tray one by one, need not to supply one by one to the tray, uses manpower sparingly, and the operation is very simple and convenient.

It should be understood that the mechanism for conveying the dough is well known in the art and will not be described in any greater detail herein.

The bottom of support 1 is provided with bottom plate 5, the top of support 1 is provided with roof 6, elevating system 3 including rotate set up in bottom plate 5 with dwang 3a that has the screw thread between the roof 6 dwang 3a pass and with dwang 3a screw thread links to each other the lifting body 3b and set up in be used for the drive on the roof 6 dwang 3a pivoted elevator motor 3c, the lateral part of lifter plate 2 with the lifting body 3b links to each other, the lateral part of the lifting body 3b is provided with the transversal L shape of personally submitting's enclasping piece 7 relatively, enclasping piece 7 keeps away from one side of the lifting body 3b with the lateral part of support 1 contacts, two rotatable gyro wheel 8 all inlays on enclasping piece 7, two the wheel face of gyro wheel 8 can with the relative both sides of support 1 contact, open elevator motor 3c, the dwang 3a rotates, because the restriction of the position of the lifting body 3b on the horizontal direction of the enclasping piece 7 that links to each other with the lifting body 3b, then the lifting body 3b carries out vertical lift along the dwang 3a, and the lifter plate 2 that links to each other with the lifting body 3b lateral part then carries out vertical lift, and the frictional force between the enclasping piece 7 and the support 1 can be reduced to the gyro wheel 8. Wherein, elevating system 3 has set up dwang 3a, the body of going up and down 3b and elevator motor 3c, opens or closes elevator motor 3c and can make lifter plate 2 carry out vertical lift relatively, and accessible control elevator motor 3c (can be step motor) the time of at every turn of rotation and the dwell time between at every turn realize that the tray rises function one by one along with its position of transporting of output mechanism 4.

Output mechanism 4 includes slide rail 4a, a plurality of slider 4b, rotatable conveyer belt 4c and the drive that slide rail 4a slides and links to each other slider 4b is followed the gliding drive structure 4d of slide rail 4a, slide rail 4a includes first rail 4a1 and second rail 4a2 and the third rail 4a3 of level setting that the slope set up, the both ends of third rail 4a3 with the top of first rail 4a1 with the top of second rail 4a2 links to each other, first rail 4a1 with the longitudinal section of second rail 4a2 is the splayed, third rail 4a3 with be located the distance between the tray of the superiors is greater than the width of tray, the bottom of second rail 4a2 with the distance of conveyer belt 4c is less than the width of tray, the projection of the one end of third rail 4a3 in vertical direction is located within lifter plate 2, the projection of the other end in the vertical direction is located the inside of conveyer belt 4c, the articulated piece 9 that colludes that is provided with in bottom of slider 4b, the tray is close to one side of first rail 4a1 bottom is provided with two connecting rods 10 relatively, the relative inboard of connecting rod 10 is provided with two elastic sheets 11 that support tightly mutually, and when the tray was detained, two the longitudinal section of elastic sheet 11 is the zigzag form of buckling downwards, the below level of third rail 4a3 is provided with blocks pole 12, block pole 12 with the length direction of third rail 4a3 is mutually perpendicular, block pole 12 and be located conveyer belt 4c is close to the top of lifter plate 2 one end, the inside of conveyer belt 4c is provided with magnet suction 13.

The working process of the output mechanism 4 is as follows: when the driving structure 4d is opened, the driving structure 4d drives the sliding member 4b to slide along the sliding rail 4a, so as to drive the hooking member 9 to slide along the sliding rail 4a, the hooking member 9 moves to the bottom end of the first rail 4a1, the position of the hooking member 9 is located below the two elastic sheets 11, as the sliding member 4b tilts upwards along the first rail 4a1, because the direction of the force applied to the elastic sheets 11 when the hooking member 9 hooks the two elastic sheets 11 and the direction of opening the elastic sheets 11 are not in the same direction at this time, the hooking member 9 can hook the two elastic sheets 11 to hook the tray, then the sliding member 4b slides to the third rail 4a3, at this time, the tray is in a vertically suspended state, the sliding member 4b continues to tilt downwards along the second rail 4a2, until one end of the bottom of the tray touches the blocking rod 12, then, as one end of the top of the tray continues to tilt downwards, one end of the bottom of the tray falls to the conveyer belt 4c below, at the moment that one end of the bottom of the tray is in contact with the conveying belt 4c, the two elastic pieces 11 are subjected to impact force, meanwhile, the tray is subjected to the action of the suction force of the suction magnet 13, under the action of the impact force and the suction force, the two elastic pieces 11 are bounced off, one end of the top of the tray also falls to the conveying belt 4c (the buckled tray rotates 180 degrees and becomes upright), and then the conveying belt 4c can smoothly convey the tray to the position below a mechanism for conveying dough to complete disc arrangement because the friction force between the conveying belt 4c and the tray is larger than the action of the suction force of the suction magnet 13 on the tray; by repeating the above process, a plurality of trays can be placed on the lifting plate 2. Wherein, output mechanism 4 has set up slide rail 4a (including first rail 4a1, second rail 4a2 and third rail 4a3), slider 4b, conveyer belt 4c and drive structure 4d, still including colluding piece 9, flexure strip 11, stop piece and suction magnet 13, has realized that output mechanism 4 will detain the function of putting on a plurality of trays on lifter plate 2 automatic transport to conveyer belt 4c one by one, and structural design is ingenious.

The upper and lower sides of the first rail 4a1, the second rail 4a2 and the third rail 4a3 are both provided with sliding grooves 14, the sliding grooves 14 are in a T shape or an inverted T shape on a cross section perpendicular to the length direction of the first rail 4a1, the second rail 4a2 or the third rail 4a3, the sliding device further comprises two first conveying rollers 15 arranged at the bottoms of the first rail 4a1 and the second rail 4a2, and a conveying belt 16 wound around the two first conveying rollers 15, the conveying belt 16 is located in the sliding grooves 14, the sliding member 4b is a rod connected with the belt surface of the conveying belt 16 at intervals, two ends of the sliding member 4b are in contact with the sliding grooves 14, the hook-up member 9 is hinged with the sliding member 4b, the driving structure 4d is used for driving the conveying belt 16 to rotate, and when the driving structure 4d is opened, the first driving belt 4d4 rotates, the sliding member 4b connected to the belt surface of the first belt 4d4 rotates along the sliding slot 14, and the hook member 9 hinged to the sliding member 4b rotates. Wherein, set up spout 14 and set up first drive belt 4d4, slider 4b, make slider 4b can slide along spout 14 under the drive of first drive belt 4d4 to drive and collude piece 9 and slide along spout 14, the structure is firm.

The sliding member 4b comprises an inner core 4b1 and a rotating part 4b2 rotatably connected with two ends of the inner core 4b1, the end and the side of the rotating part 4b2 are in contact with the sliding chute 14, and the rotation of the rotating part 4b2 in contact with the sliding chute 14 can reduce the friction between the sliding member 4b and the sliding chute 14, thereby reducing the abrasion of the sliding chute 14 caused by the sliding member 4b and enabling the structure to have higher durability.

The driving structure 4d comprises a driving motor 4d1, a first driving disk 4d2, a second driving disk 4d3, a first driving belt 4d4, a driving gear 4d5, a driven gear 4d6 and a driving rod 4d7, the first driving disk 4d2 is arranged on an output shaft of the driving motor 4d1, the driving gear 4d5 is coaxially connected with the second driving disk 4d3, the first driving belt 4d4 is wound outside the first driving disk 4d2 and the second driving disk 4d3, the driving rod 4d7 is coaxially connected with the first conveying roller 15, the driven gear 4d6 is arranged on the driving rod 4d7, the driven gear 4d6 is engaged with the driving gear 4d5, the driving motor 4d1 is started to drive the first driving disk 4d2 to rotate, so as to drive the first driving disk 4d4 to rotate, and then drive the second driving disk 4d5 to rotate, and the driving gear 3, the driven gear 4d6 is driven to rotate, and then the driving rod 4d7 is driven to rotate, so as to drive a first conveying roller 15 to rotate, then the conveying belt 16 is driven to rotate to drive the sliding part 4b to rotate, and finally the hooking part 9 is driven to rotate, so that the hooking parts 9 can hook the trays one by one.

The coaxial third transmission disc 17 that is provided with on the output shaft of driving motor 4d1 still includes two second conveying rollers 18, conveyer belt 4c is around locating on two second conveying rollers 18, one the tip of second conveying roller 18 is coaxial to be provided with fourth transmission disc 19, still includes second drive belt 20, second drive belt 20 is around locating on third transmission disc 17 and the fourth transmission disc 19, open driving motor 4d1, then drive third transmission disc 17 and rotate, drive second drive belt 20 and rotate, drive fourth transmission disc 19 again and rotate, drive second conveying roller 18 at last and rotate to drive conveyer belt 4c and rotate, realized the function that conveyer belt 4c carried the tray, only set up a driving motor 4d1 simultaneously, can drive first transmission belt 4d4 and conveyer belt 4c simultaneously and rotate, the energy can be saved.

Be provided with shielding plate 21 on bottom plate 5, shielding plate 21 with lifter plate 2 has the settlement distance, shielding plate 21's top has been seted up through groove 22, the superiors two that set up on the tray the flexure strip 11 with the position through groove 22 is relative, and shielding plate 21 guarantees that only the tray that rises to a take the altitude can be colluded by colluding piece 9, and the tray of below can't be colluded by colluding piece 9 owing to shielding of shielding plate 21.

The connection position of the first rail 4a1 and the third rail 4a3 and the connection position of the second rail 4a2 and the third rail 4a3 are all circular arc transition positions, and the first rail 4a1 and the third rail 4a3, and the second rail 4a2 and the third rail 4a3 which are connected through the circular arc transition positions can ensure that the sliding piece can move smoothly between the rails.

The above description is only for the purpose of describing the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, and any variations and modifications made by those skilled in the art based on the above disclosure are within the scope of the appended claims.

Claims (9)

1. The utility model provides a dish machine that arranges that uses in moon cake production which characterized in that: support (1) including vertical setting, slide set up in be used for detaining on support (1) puts lifter plate (2) of a plurality of trays, still including be used for carrying out vertical lift elevating system (3), will place one by one to lifter plate (2) on output mechanism (4) that the tray was transported.

2. The dish arranging machine used in the production of moon cakes according to claim 1, characterized in that: the bottom of support (1) is provided with bottom plate (5), the top of support (1) is provided with roof (6), elevating system (3) including rotate set up in bottom plate (5) with dwang (3a) of possessing the screw thread between roof (6) dwang (3a) pass and with the body (3b) that goes up and down that dwang (3a) screw thread links to each other and set up in be used for the drive on roof (6) dwang (3a) pivoted elevator motor (3c), the lateral part of lifter plate (2) with the body (3b) that goes up and down links to each other, the lateral part of the body (3b) that goes up and down is provided with transversal holding member (7) of personally submitting the L shape relatively, holding member (7) are kept away from one side of the body (3b) with the lateral part of support (1) contacts, two all inlay on holding member (7) and be equipped with rotatable gyro wheel (8), the wheel surfaces of the two rollers (8) can be in contact with two opposite sides of the bracket (1).

3. The dish arranging machine used in the production of moon cakes according to claim 2, characterized in that: output mechanism (4) include slide rail (4a), a plurality of slider (4b) that link to each other with slide rail (4a) slip, rotatable conveyer belt (4c) and drive slider (4b) are followed the gliding drive structure (4d) of slide rail (4a), slide rail (4a) are including first rail (4a1) and second rail (4a2) and the third rail (4a3) of level setting that the slope set up, the both ends of third rail (4a3) with the top of first rail (4a1) with the top of second rail (4a2) links to each other, first rail (4a1) with the longitudinal section of second rail (4a2) is the splayed, the distance between third rail (4a3) and the tray that is located the superiors is greater than the width of tray, the bottom of second rail (4a2) with the distance of conveyer belt (4c) is less than the width of tray, the projection of one end of the third rail (4a3) in the vertical direction is located within the lifting plate (2), the projection of the other end in the vertical direction is located inside the conveying belt (4c), the bottom of the sliding part (4b) is hinged to be provided with a hooking part (9), one side of the tray close to the bottom of the first rail (4a1) is relatively provided with two connecting rods (10), the opposite inner sides of the connecting rods (10) are provided with two elastic pieces (11) which are abutted to each other, when the tray is buckled, the longitudinal sections of the two elastic pieces (11) are in a downward bending folded line shape, the lower part of the third rail (4a3) is horizontally provided with a blocking rod (12), the blocking rod (12) is perpendicular to the length direction of the third rail (4a3), the blocking rod (12) is located above one end of the conveying belt (4c) close to the lifting plate (2), and a suction magnet (13) is arranged in the conveying belt (4 c).

4. A plate arranging machine used in moon cake production according to claim 3, wherein: the upper side and the lower side of the first rail (4a1), the second rail (4a2) and the third rail (4a3) are both provided with sliding grooves (14), the sliding grooves (14) are in a T shape or an inverted T shape on a cross section perpendicular to the length direction of the first rail (4a1), the second rail (4a2) or the third rail (4a3), the sliding device further comprises two first conveying rollers (15) arranged at the bottoms of the first rail (4a1) and the second rail (4a2) and a conveying belt (16) wound on the two first conveying rollers (15), the conveying belt (16) is positioned in the sliding grooves (14), the sliding piece (4b) is a rod connected with the belt surface of the conveying belt (16) at an interval, two ends of the sliding piece (4b) are in contact with the sliding grooves (14), and the hooking piece (9) is hinged to the sliding piece (4b), the driving structure (4d) is used for driving the conveyor belt (16) to rotate.

5. A plate arranging machine used in moon cake production according to claim 4, wherein: the sliding piece (4b) comprises an inner core (4b1) and a rotating part (4b2) which is rotatably connected with the two ends of the inner core (4b1), and the end part and the side part of the rotating part (4b2) are contacted with the sliding groove (14).

6. A plate arranging machine used in moon cake production according to claim 4, wherein: the driving structure (4d) comprises a driving motor (4d1), a first driving disk (4d2), a second driving disk (4d3), a first driving belt (4d4), a driving gear (4d5), a driven gear (4d6) and a driving rod (4d7), the first driving disk (4d2) is arranged on an output shaft of the driving motor (4d1), the driving gear (4d5) is coaxially connected with the second driving disk (4d3), the first driving belt (4d4) is wound on the outer sides of the first driving disk (4d2) and the second driving disk (4d3), the driving rod (4d7) is coaxially connected with the first conveying roller (15), the driven gear (4d6) is arranged on the driving rod (4d7), and the driven gear (4d6) is meshed with the driving gear (4d 5).

7. The dish arranging machine used in the production of moon cakes according to claim 6, wherein: the coaxial third transmission dish (17) that is provided with on the output shaft of driving motor (4d1), still include two second conveying rollers (18), conveyer belt (4c) are around locating on two second conveying rollers (18), one the tip of second conveying roller (18) is coaxial to be provided with fourth transmission dish (19), still includes second drive belt (20), second drive belt (20) are around locating on third transmission dish (17) and fourth transmission dish (19).

8. A plate arranging machine used in moon cake production according to claim 3, wherein: be provided with shielding plate (21) on bottom plate (5), shielding plate (21) with lifter plate (2) have the settlement distance, through groove (22) have been seted up at the top of shielding plate (21), the superiors two that set up on the tray flexure strip (11) with the position through groove (22) is relative.

9. A plate arranging machine used in moon cake production according to claim 4, wherein: the junction of the first rail (4a1) and the third rail (4a3), and the junction of the second rail (4a2) and the third rail (4a3) are all circular arc transitions.

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